Apparatus and method for controlling access to security content using near field network communication of mobile devices

ABSTRACT

Disclosed is an apparatus for controlling access to a security content using near field network communication of mobile devices. A policy issuance provider registration unit requests a content security policy for a first content, a security content, to a service server, receives the content security policy for the first content, requests to the service server for a first mobile device to be registered as a content security policy issuance provider, and receives a result of registration and a provider policy from the service server. A policy issuance provider converting unit converts the first mobile device to the content security policy issuance provider when receiving a request for access for browsing the first content through near-field network communication from another mobile device in which a DRM client application is being executed. A temporary content security policy issuance unit issues a temporary content security policy for the first content through near-field network communication to the second mobile device so that the second mobile device can browse the first content.

BACKGROUND

1. Field

The present disclosure relates to apparatuses and methods forcontrolling security content access rights by using near-field networkcommunications of mobile devices, more particularly to apparatuses andmethods for controlling access rights for security content by usingnear-field network communications of mobile devices, which can safelyissue a security content access right in a closed network environment oran off-line environment.

2. Description of Related Art

The user who does not have a management right or an access right forsecurity content cannot access the security content. Also, in cases of aclosed network environment or an off-line environment where users cannotaccess a service server, access rights on the security content cannot berequested to the service server.

Also, a near-field communication (NFC) is one of radio frequencyidentification (RFID) technologies. It is a contactless near distancewireless communication technology which uses a 13.56 Mhz frequency bandand is capable of transmitting data within a distance less than 10centimeters with a low power. Usually, it is used by mobilecommunication terminals, personal computers, etc. The mobilecommunication terminals having NFC functionality may support apeer-to-peer communication, a RFID reading function, a card emulationfunction, etc. Among these, the peer-to-peer communication or the RFIDfunction is an essential function which should be implemented in a NFCdevice.

SUMMARY

An aspect of exemplary embodiments is to provide apparatuses and methodsfor controlling access rights on a security content by using anear-field communication of a mobile device, which can safely receiveissuance of an access right on a security content without reference to aconnection status to a service server.

Another aspect of exemplary embodiments is to provide acomputer-readable recording medium storing a program for executingmethods for controlling access rights on a security content by using anear-field communication of a mobile device, which can safely receiveissuance of an access right on a security content without reference to aconnection status to a service server.

According to an aspect of exemplary embodiments of the presentdisclosure, an apparatus for controlling access rights for securitycontent may be provided. The apparatus may comprise a policy issuanceprovider registration unit requesting a content security policy for afirst content which is a security content to a service server, receivingthe content security policy for the first content, requesting theservice server to register a first mobile device as a content securitypolicy issuance provider, and receiving a provider policy and a resultof the registration from the service server, a policy issuance providerconverting unit receiving an access right request for accessing thefirst content through near-field network communication from a secondmobile device in which a digital rights management (DRM) clientapplication is being executed, and converting the first mobile device tothe content security policy issuance provider; and a temporary contentsecurity policy issuance unit issuing a temporary content securitypolicy for the first content through the near-field networkcommunications to the second mobile device so that the second mobiledevice can access the first content.

According to another aspect of exemplary embodiments of the presentdisclosure, a method for controlling access rights for security content,performed in an apparatus for controlling access rights on securitycontent by using near-field network communications of a mobile devicemay be provided. The method may comprise (a) authenticating a user of afirst mobile device by executing a downloadable DRM client applicationin the first mobile device; (b) requesting a content security policy fora first content which is a security content to a service server,receiving the content security policy for the first content, requestingthe service server to register the first mobile device as a contentsecurity policy issuance provider, and receiving a provider policy and aresult of the registration from the service server; (c) receiving anaccess right request for accessing the first content through near-fieldnetwork communication from a second mobile device in which a DRM clientapplication is being executed; (d) converting the first mobile device tothe content security policy issuance provider; and (e) issuing atemporary content security policy for the first content through thenear-field network communications to the second mobile device so thatthe second mobile device can access the first content.

According to yet another aspect of exemplary embodiments of the presentdisclosure, a computer-readable recording medium, on which a programcode for the method for controlling access rights for security contentby using near-field network communications of a mobile device accordingto one of the above-described methods is recorded, may be provided.

According to apparatuses and methods for controlling access rights forsecurity content, access rights for security content can be safelyissued through a near-field communication between mobile devices withoutreference to a connection status to a service server.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a block diagram illustrating a configuration of a securitycontent access right control apparatus 100 according to the presentdisclosure:

FIG. 2 is a view illustrating a system in which an apparatus forcontrolling access rights on security content by using near-fieldnetwork communications of a mobile device according to the presentdisclosure; and

FIG. 3 is a sequence chart illustrating a method according to thepresent disclosure, for controlling access rights on security content byusing a near-field network communication of a mobile device.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

Hereinafter, preferred exemplary embodiments of apparatuses and methodsfor controlling access rights for security content by using a near-fieldnetwork communication of a mobile device (hereinafter, also referred toas ‘security content access right control apparatus or method),according to the present disclosure, will be described by referringaccompanying figures. Here, near-field communication (NFC) can be usedas the near-field network communication. However, various exemplaryembodiments are not restricted thereto.

FIG. 1 is a block diagram illustrating a configuration of a securitycontent access right control apparatus 100 according to the presentdisclosure. Referring to FIG. 1, the security content access rightcontrol apparatus 100 according to an exemplary embodiment of thepresent disclosure may comprise a digital rights management (DRM) clientapplication execution unit 110, a policy issuance provider registrationunit 120, a policy issuance provider converting unit 130, and atemporary content security policy issuance unit 140.

The DRM client application execution unit 110 may execute a DRM clientapplication which is downloaded in a mobile device. Referring to FIG. 2,a first mobile device 210 and a second mobile device 220 may executerespective DRM client applications. That is, the security content accessright control apparatus 100 according to the present disclosure maybasically be executed on a mobile device having a DRM client. Also, theexecution of the DRM client application may mean that authentication ofa user has been already completed.

Since the mobile device is a terminal whose user authentication from aservice server 200 has already completed, it is not necessary to performan additional user authentication when the mobile device is disconnectedfrom the network.

In the first mobile device 210 executing the DRM client application, thepolicy issuance provider registration unit 120 may request a contentsecurity policy for security content to the service server 200, andreceive the content security policy for the security content from theservice server 200. Then, the policy issuance provider registration unit120 may request the service server 200 to register the first mobiledevice 210 as a content security policy issuance provider, and receive aresult of the registration. Also, it may receive a provider (issuance)policy together with the result of the registration.

The provider (issuance) policy may include at least one of timeinformation, network information, policy issuance information, and rightinformation. For example, the time information may be information on atime period for which the first mobile device 210 can operate as aprovider (e.g., PM 12:30 May 8, 2013 to PM 16:00 May 8, 2013), and thenetwork information may be information specifying a near-fieldcommunication protocol used for issuing a temporary content securitypolicy which will be explained later. The policy issuance informationmay include information on the total number of issuances of thetemporary content security policies which the first mobile device 210can perform (e.g., 100 times), or information on an expiration time ofthe temporary content security policy which the mobile device 210 issues(e.g., 1 hour). The right information may be information on at least onecontent security classes of the temporary content security policy whichcan be issued by the first mobile device 210 as a provider (e.g.,‘read-only’ access right). However, various exemplary embodiments arenot restricted thereto.

The policy issuance provider converting unit 130 may convert the firstmobile device 210 to a content security policy issuance provider whenreceiving the access right request for accessing the security contentfrom the second mobile device 220. However, the time when the firstmobile device 210 is converted to the content security policy issuanceprovide may also be a time before the second mobile device 220 receivesthe access right request for accessing the security content from thesecond mobile device 220.

The temporary content security policy issuance unit 140 may issue thetemporary content security policy for the security content to the secondmobile device 220 through a near-field network communication, in orderto make the second mobile device 220 be able to access the securitycontent. That is, through this, the second mobile device 220 cantemporarily obtain an access right for the security content from thefirst mobile device 210 without directly accessing the service server200.

The temporary content security policy may include at least one of policyissuance information, content type information, user information, rightinformation, and network information. For example, the policy issuanceinformation may be information on an expiration time of the temporarycontent security policy which the mobile device 210 issues (e.g., 1 hourfrom the reception time of the temporary content security policy), andthe content type information may include types of security content towhich the temporary content security policy is applied (e.g., appliedonly to ‘office’ content). The user information may include informationon user groups which can use the temporary content security policy(e.g., marketing business division), and the right information may beinformation on at least one content security classes of the temporarycontent security policy which can be issued by the first mobile device210 as a provider (e.g., ‘read’, ‘edit’, ‘print’, ‘decryption’, and soon). Also, the network information may include a connection statusmaintaining option (e.g., whether the first mobile device 210 can accessthe security content or not even when the near-field networkcommunication of the first mobile device 210 is disconnected). However,various exemplary embodiments are not restricted to.

In order to specifically explain a method for controlling access rightsfor security content according to the present disclosure, FIG. 3 isprovided. FIG. 3 is a sequence chart illustrating a method according tothe present disclosure, for controlling access rights for securitycontent by using a near-field network communication of a mobile device.As described above, each of the first mobile device 210 and the secondmobile device 220 can execute each DRM client application (S310, S360).

Referring to FIG. 3, the first mobile device 210 in which a DRM clientapplication is being executed (S310) may request a content securitypolicy for a first content which is a security content to the serviceserver 200 (S320). Then, the first mobile device 210 may receive therequested content security policy for the first content from the serviceserver 200 (S300), and request the service server 200 to register thefirst mobile device 200 as a content security policy issuance provider(S340). Accordingly, the service server 200 may transmit a result of theregistration and the provider (issuance) policy to the first mobiledevice 210. The first mobile device 200 should be connected to theservice server 200 when the above-described steps S320 to S350 areperformed.

Also, the first mobile device 210 registered as the content securitypolicy issuance provider may receive an access right request foraccessing the first content from the second mobile device 220 which isalso executing a DRM client application (S360) through a near-fieldnetwork communication (S370). Upon receiving the access right request,the first mobile device 210 may be converted to a content securitypolicy issuance provider (S380), and issue a temporary content securitypolicy in order to make the second mobile device 220 be able to accessthe first content which is the security content (S390). In thisinstance, the step S380 may also be performed before the step S370.However, the step S380 should be performed after the step S350.

Thus, the second mobile device 220 having received the temporary contentsecurity policy can access the first content (S400), and an access rightclass for the mobile device 220 may depend on the temporary contentsecurity policy for the first content. That is, the temporary contentsecurity policy may include information on an expiration time of thetemporary content security policy which (e.g., 1 hour from the receptiontime of the temporary content security policy), information on types ofsecurity content to which the temporary content security policy isapplied (e.g., applied only to ‘office’ content), information on usergroups which can use the temporary content security policy (e.g.,marketing business division), information on at least one contentsecurity classes which can be accessed under the temporary contentsecurity policy (e.g., ‘read’, ‘edit’, ‘print’, ‘decryption’, and soon), and a connection status maintaining option (e.g., whether the firstmobile device 210 can access the security content or not even when thenear-field network communication of the first mobile device 210 isdisconnected).

The above-described steps S370 to S390 may be performed withoutreference to a connection status to the service server 200. That is,they can be performed only by near-filed network communications betweenthe first mobile device 210 and the second mobile device 220.

That is, even in a closed network environment or an off-line environmentwhere the service server 200 cannot be accessed, an access right onencrypted security content can be safely issued to the second mobiledevice 220 owned by a third person through near-field networkcommunications with the first mobile device 210 owned by a user havingaccessing the security content.

The first mobile device may transmit a record (i.e., issuance history)of the temporary content security policy on the first content issued tothe second mobile device 200 to the service server 200. At this time,the first mobile device 210 may be connected to the service server 200.

It will be understood that, although the terms first, second, etc. maybe used herein to describe various elements, these elements should notbe limited by these terms. These terms are only used to distinguish oneelement from another. For example, a first element could be termed asecond element, and, similarly, a second element could be termed a firstelement, without departing from the scope of the present invention. Asused herein, the term “and/or” includes any and all combinations of oneor more of the associated listed items.

The apparatuses and methods according to the present disclosure may beimplemented as a program code recorded in a computer-readable recordingmedium. The computer-readable recording medium may include all types ofstorage devices on which computer-readable data can be stored. Forexample, the computer-readable recording medium may be read-only memory(ROM), random access memory (RAM), compact disc ROM (CD-ROM), magnetictape, a floppy disc, an optical data storage device, etc. Also, acarrier wave (i.e., transmission through internet) may be included asthe computer-readable recording medium. Also, the computer-readablerecording medium may be distributed over computer systems connectedthrough wire or wireless communication networks, and thecomputer-readable program code can be stored and executed in thedistributive manner.

While the example embodiments of the present invention and theiradvantages have been described in detail, it should be understood thatvarious changes, substitutions and alterations may be made hereinwithout departing from the scope of the invention.

1. An apparatus for controlling access rights for security content, theapparatus comprising: a policy issuance provider registration unitrequesting a content security policy for a first content which is asecurity content to a service server, receiving the content securitypolicy for the first content, requesting the service server to registera first mobile device as a content security policy issuance provider,and receiving a provider policy and a result of the registration fromthe service server; a policy issuance provider converting unit receivingan access right request for accessing the first content throughnear-field network communication from a second mobile device in which adigital rights management (DRM) client application is being executed,and converting the first mobile device to the content security policyissuance provider; and a temporary content security policy issuance unitissuing a temporary content security policy for the first contentthrough the near-field network communications to the second mobiledevice so that the second mobile device can access the first content. 2.The apparatus according to claim 1, further comprising: a DRM clientapplication execution unit by authenticating a user of the first mobiledevice by executing a downloadable DRM client application in the firstmobile device.
 3. The apparatus according to claim 1, wherein thetemporary content security policy issuance unit transmits, to theservice server, a record of temporary content security policies for thefirst content issued to the second mobile device.
 4. The apparatusaccording to claim 1, wherein the policy issuance provider convertingunit converts the first mobile device to the content security policyissuance provider before receiving the access right request foraccessing the first content from the second mobile device in which theDRM client application is being executed.
 5. The apparatus according toclaim 1, wherein the provider policy includes at least one of timeinformation, network information, policy issuance information, and rightinformation.
 6. The apparatus according to claim 5, wherein the timeinformation is information on an expiration time of a provider role ofthe first mobile device; the network information indicates a near-fieldnetwork communication protocol used for issuing the temporary contentsecurity policy; the policy issuance information is information on atotal number of the temporary content security policies which the firstmobile devices can issue as the provider or an expiration time of thetemporary content security policy issued by the first mobile device; andthe right information is information on an access right class of atemporary content security policy which the first mobile device canissue as the provider.
 7. The apparatus according to claim 1, whereinthe temporary content security policy includes at least one of policyissuance information, content type information, user information, rightinformation, and network information.
 8. The apparatus according toclaim 7, wherein the policy issuance information is information on anexpiration time of the temporary content security policy; the contenttype information is information on types of security content to whichthe temporary content security policy is applied; the user informationis information on user groups which can use the temporary contentsecurity policy, the right information is information on access rightclasses which can be used based on the temporary content securitypolicy.
 9. A method for controlling access rights for security content,performed in an apparatus for controlling access rights on securitycontent by using near-field network communications of a mobile device,the method comprising: (a) authenticating a user of a first mobiledevice by executing a downloadable DRM client application in the firstmobile device; (b) requesting a content security policy for a firstcontent which is a security content to a service server, receiving thecontent security policy for the first content, requesting the serviceserver to register the first mobile device as a content security policyissuance provider, and receiving a provider policy and a result of theregistration from the service server; (c) receiving an access rightrequest for accessing the first content through near-field networkcommunication from a second mobile device in which a DRM clientapplication is being executed; (d) converting the first mobile device tothe content security policy issuance provider; and (e) issuing atemporary content security policy for the first content through thenear-field network communications to the second mobile device so thatthe second mobile device can access the first content.
 10. The methodaccording to claim 9, further comprising (f) transmitting, to theservice server, a record of temporary content security policies for thefirst content issued to the second mobile device
 11. The methodaccording to claim 9, wherein the step (d) is performed before the step(c).
 12. The method according to claim 9, wherein the provider policyincludes at least one of time information, network information, policyissuance information, and right information.
 13. The method according toclaim 12, wherein the time information is information on an expirationtime of a provider role of the first mobile device; the networkinformation indicates a near-field network communication protocol usedfor issuing the temporary content security policy; the policy issuanceinformation is information on a total number of the temporary contentsecurity policies which the first mobile devices can issue as theprovider or an expiration time of the temporary content security policyissued by the first mobile device; and the right information isinformation on an access right class of a temporary content securitypolicy which the first mobile device can issue as the provider.
 14. Themethod according to claim 9, wherein the temporary content securitypolicy includes at least one of policy issuance information, contenttype information, user information, right information, and networkinformation.
 15. The method according to claim 14, wherein the policyissuance information is information on an expiration time of thetemporary content security policy; the content type information isinformation on types of security content to which the temporary contentsecurity policy is applied; the user information is information on usergroups which can use the temporary content security policy, the rightinformation is information on access right classes which can be usedbased on the temporary content security policy.
 16. A non-transitorycomputer-readable recording medium having embodied thereon a program,which when executed by a computer causes the computer to execute amethod comprising: (a) authenticating a user of a first mobile device byexecuting a downloadable DRM client application in the first mobiledevice; (b) requesting a content security policy for a first contentwhich is a security content to a service server, receiving the contentsecurity policy for the first content, requesting the service server toregister the first mobile device as a content security policy issuanceprovider, and receiving a provider policy and a result of theregistration from the service server; (c) receiving an access rightrequest for accessing the first content through near-field networkcommunication from a second mobile device in which a DRM clientapplication is being executed; (d) converting the first mobile device tothe content security policy issuance provider; and (e) issuing atemporary content security policy for the first content through thenear-field network communications to the second mobile device so thatthe second mobile device can access the first content.
 17. Thenon-transitory computer-readable recording medium according to claim 16,wherein the method further comprises (f) transmitting, to the serviceserver, a record of temporary content security policies for the firstcontent issued to the second mobile device
 18. The non-transitorycomputer-readable recording medium according to claim 16, wherein thestep (d) is performed before the step (c).
 19. The non-transitorycomputer-readable recording medium according to claim 16, wherein theprovider policy includes at least one of time information, networkinformation, policy issuance information, and right information.
 20. Thenon-transitory computer-readable recording medium according to claim 16,wherein the temporary content security policy includes at least one ofpolicy issuance information, content type information, user information,right information, and network information.